Fault-based alternate test of RF components

S. S. Akbay, A. Chatterjee
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引用次数: 33

Abstract

Defect-based RF testing is a strong candidate for providing the best solution in terms of ATE complexity and cost. However, specification-based testing is still the norm for analog/RF because of the limitations of analog fault models. Unfortunately, as the amount of functionality packed into individual devices is increased with each generation, the cost of testing larger numbers of specifications also increases. To address this, the alternate test methodology proposed in the past, which significantly cuts costs associated with specification tests by crafting a single test stimulus and mapping the response signatures into all specifications at once, can be modified for defect-based testing as well. In this work, we explore a new type of alternate test that is more fundamental than defect-based or specification-based approaches. Rather than focusing on physical defect mechanisms or the way individual specifications are measured, fault-based alternate test studies the abstractions of physical phenomena that cause specification violations; it unifies the benefits of reduced ATE complexity of defect-based approaches and the compact stimulus-signature pairs of specification-based alternate tests.
基于故障的射频组件交替测试
基于缺陷的射频测试是在ATE复杂性和成本方面提供最佳解决方案的有力候选。然而,由于模拟故障模型的局限性,基于规范的测试仍然是模拟/射频的规范。不幸的是,随着每一代设备中功能的增加,测试大量规格的成本也在增加。为了解决这个问题,过去提出的替代测试方法也可以针对基于缺陷的测试进行修改,该方法通过制作单个测试刺激并将响应签名一次性映射到所有规范中,从而显著降低了与规范测试相关的成本。在这项工作中,我们探索了一种新的替代测试类型,它比基于缺陷或基于规范的方法更基本。而不是关注物理缺陷机制或单个规范的测量方式,基于故障的替代测试研究导致规范违反的物理现象的抽象;它结合了基于缺陷的方法降低ATE复杂性的好处和基于规范的替代测试的紧凑刺激签名对。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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